Let's read! We will often find out this sentence everywhere. When still being a kid, mom used to order us to always read, so did the teacher. Some books are fully read in a week and we need the obligation to support reading. What about now? Do you still love reading? Is reading only for you who have obligation? Absolutely not! We here offer you a new book enPDFd the perception of the visual world to read.

The Perception of the Visual World. By James J. Gibson. U.S.A.: Houghton Mifflin Company, 1950 (George Allen & Unwin, Ltd., London). Price 35s.

https://www.cell.com/neuron/pdf/S0896-6273(15)00823-5.pdf

Rhythms for Cognition: Communication through Coherence.

Resena de la obra de Don A. Dillman, Jolene D. Smyth y Leah Melani Christian: Internet, Phone, Mail and Mixed-Mode Surveys. The Tailored Design Method. New Jersey: John Wiley and Sons

https://dialnet.unirioja.es/descarga/articulo/7287796.pdf

Internet, phone, mail and mixed-mode surveys: the tailored design method: reseña

Neuronal oscillations are ubiquitous in the brain and may contribute to cognition in several ways: for example, by segregating information and organizing spike timing. Recent data show that delta, theta and gamma oscillations are specifically engaged by the multi-timescale, quasi-rhythmic properties of speech and can track its dynamics. We argue that they are foundational in speech and language processing, 'packaging' incoming information into units of the appropriate temporal granularity. Such stimulus-brain alignment arguably results from auditory and motor tuning throughout the evolution of speech and language and constitutes a natural model system allowing auditory research to make a unique contribution to the issue of how neural oscillatory activity affects human cognition.

/pdf/cortical-oscillations-and-speech-processing-emerging-o1mnh4nv0n.pdf

Cortical oscillations and speech processing: emerging computational principles and operations.

We investigated grapheme–colour synaesthesia and found that: (1) The induced colours led to perceptual grouping and pop-out, (2) a grapheme rendered invisible through ‘crowding’ or lateral masking induced synaesthetic colours — a form of blindsight — and (3) peripherally presented graphemes did not induce colours even when they were clearly visible. Taken collectively, these and other experiments prove conclusively that synaesthesia is a genuine perceptual phenomenon, not an effect based on memory associations from childhood or on vague metaphorical speech. We identify different subtypes of number–colour synaesthesia and propose that they are caused by hyperconnectivity between colour and number areas at different stages in processing; lower synaesthetes may have cross-wiring (or cross-activation) within the fusiform gyrus, whereas higher synaesthetes may have cross-activation in the angular gyrus. This hyperconnectivity might be caused by a genetic mutation that causes defective pruning of connections between brain maps. The mutation may further be expressed selectively (due to transcription factors) in the fusiform or angular gyri, and this may explain the existence of different forms of synaesthesia. If expressed very diffusely, there may be extensive cross-wiring between brain regions that represent abstract concepts, which would explain the link between creativity, metaphor and synaesthesia (and the higher incidence of synaesthesia among artists and poets). Also, hyperconnectivity between the sensory cortex and amygdala would explain the heightened aversion synaesthetes experience when seeing numbers printed in the ‘wrong’ colour. Lastly, kindling (induced hyperconnectivity in the temporal lobes of temporal lobe epilepsy [TLE] patients) may explain the purported higher incidence of synaesthesia in these patients . We conclude with a synaesthesia-based theory of the evolution of language. Thus, our experiments on synaesthesia and our theoretical framework attempt to link several seemingly unrelated facts about the human mind. Far from being a mere curiosity, synaesthesia may provide a window into perception, thought and language. www.imprint-academic.com/rama copyright © Journal of Consciousness Studies, 8, No. 12, 2001, pp. 3–34 Correspondence: Center for Brain and Cognition, University of California, San Diego, 9500 Gilman Dr. 0109, La Jolla, CA 92093-0109, e-mail: vramacha@ucsd.edu

Synaesthesia? A window into perception, thought and language

Visual attention allows an observer to select certain visual information for specialized processing. Selection is readily apparent in ‘tracking’ tasks where even with the eyes fixed, observers can track a target as it moves among identical distractor items1. In such a case, a target is distinguished by its spatial trajectory. Here we show that one can keep track of a stationary item solely on the basis of its changing appearance—specified by its trajectory along colour, orientation, and spatial frequency dimensions—even when a distractor shares the same spatial location. This ability to track through feature space bears directly on competing theories of attention, that is, on whether attention can select locations in space2,3,4, features such as colour or shape5,6,7, or particular visual objects composed of constellations of visual features. Our results affirm, consistent with a growing body of psychophysical8,9,10,11,12,13 and neurophysiological14,15,16 evidence, that attention can indeed select specific visual objects. Furthermore, feature-space tracking extends the definition of visual object17 to include not only items with well defined spatio-temporal trajectories18, but also those with well defined featuro-temporal trajectories.

Tracking an object through feature space

Previous research has shown that when the targets of successive visual searches have features in common, response times are shorter. However, the nature of the representation underlying this priming and how priming is affected by the task remain uncertain. In four experiments, subjects searched for an odd-sized target and reported its orientation. The color of the items was irrelevant to the task. When target size was repeated from the previous trial, repetition of target color speeded the response. However, when target size was different from that in the previous trial, repetition of target color slowed responses, rather than speeding them. Our results suggest that these priming phenomena reflect the same automatic mechanism as the priming of pop-out reported by Maljkovic and Nakayama (1994). However, the crossover interaction between repetition of one feature and another rules out Maljkovic and Nakayama's (1994) theory of independent potentiation of distinct feature representations. Instead, we suggest that the priming pattern results from contact with an episodic memory representation of the previous trial.

/pdf/repetition-priming-in-visual-search-episodic-retrieval-not-2tmxkxlvnf.pdf

Repetition priming in visual search: Episodic retrieval, not feature priming

/pdf/repetition-priming-in-visual-search-episodic-retrieval-not-1byarcxr4f.pdf

Repetition priming in visual search: Episodic retrieval, not feature priming - eScholarship

https://www.cell.com/trends/cognitive-sciences/pdf/S1364-6613(09)00068-0.pdf

Seeing slow and seeing fast: two limits on perception.

http://people.virginia.edu/~mk9y/documents/papers/KubovyEtAl1998.pdf

Alex O. Holcombe

Papers

Tracking an object through feature space

Repetition priming in visual search: Episodic retrieval, not feature priming

Repetition priming in visual search: Episodic retrieval, not feature priming - eScholarship

Seeing slow and seeing fast: two limits on perception.

On the Lawfulness of Grouping by Proximity